CN219745189U - Spray tap and spray system - Google Patents

Abstract

The utility model provides a spray faucet and a spray system, wherein the spray faucet is used in a building outer elevation water spray test and comprises a mounting seat, a first intelligent rotating device, a second intelligent rotating device, a shunt tube, a first long-strip spray head and a second long-strip spray head, the shunt tube comprises a first tube and a second tube, one end of the first tube is connected with the mounting seat, the other end of the first tube is connected with the middle part of the second tube, and the second tube is provided with a first end and a second end which are opposite; the first spray head is rotationally connected with the first end through a first intelligent rotating device and is communicated with the second pipe; the second nozzle is rotationally connected with the second end through a second intelligent rotating device and is communicated with a second pipe; the first intelligent rotating device and the second intelligent rotating device can be in communication connection with an external intelligent control platform, so that the first spray head can be remotely controlled to rotate relative to the shunt pipe or the second spray head can be remotely controlled to rotate relative to the shunt pipe. The spray faucet is various in functions, good in flexibility, convenient to operate and beneficial to improving the water spraying efficiency.

Description

Spray tap and spray system

Technical Field

The utility model belongs to the technical field of building outer facade water spraying tests, and particularly relates to a spray faucet and a spray system.

Background

The assembled building needs to carry out outer facade water spraying test before finishing of the two structures to check leakage, common easy-leakage parts in the assembled building are provided with horizontal joints, vertical joints and the like, but the existing spray head faucet has single function and poor flexibility, can only carry out effective water spraying on one type of easy-leakage parts each time, needs to interrupt water spraying and manually adjust the angle of the spray head to lift up again (lift the spray head to a designated floor for water spraying again) when dealing with different types of easy-leakage parts, and is inconvenient to operate and unavoidably affects the water spraying progress.

Disclosure of Invention

The utility model mainly aims to provide a spray faucet which has various functions, better flexibility and convenient operation and is beneficial to improving the water spraying efficiency.

The utility model provides a spray faucet, which is used in a building outer elevation water spray test and comprises the following components:

a mounting base;

the first intelligent rotating device;

the second intelligent rotating device;

the shunt tube comprises a first tube and a second tube, one end of the first tube is connected with the mounting seat, the other end of the first tube is connected with the middle part of the second tube, and the second tube is provided with a first end and a second end which are opposite;

the first nozzle is in a strip shape, is rotationally connected with the first end through the first intelligent rotating device and is communicated with the second pipe; and

the second nozzle is in a strip shape, is rotationally connected with the second end through the second intelligent rotating device and is communicated with the second pipe;

the first intelligent rotating device and the second intelligent rotating device can be in communication connection with an external intelligent control platform, so that the first spray head can be remotely controlled to rotate relative to the shunt pipe or the second spray head can be remotely controlled to rotate relative to the shunt pipe.

Further, the intelligent spray head comprises a first sliding rail, a second sliding rail, a first intelligent moving device, a second intelligent moving device, a first hose and a second hose, wherein the first sliding rail is rotationally connected with the first end through the first intelligent rotating device, the first spray head is slidingly arranged on the first sliding rail through the first intelligent moving device and communicated with the first end through the first hose, the second sliding rail is rotationally connected with the second end through the second intelligent rotating device, and the second spray head is slidingly arranged on the second sliding rail through the second intelligent moving device and communicated with the second end through the second hose;

the first spray head is perpendicular to or parallel to the first sliding rail, the second spray head is perpendicular to or parallel to the second sliding rail, and the first intelligent mobile device and the second intelligent mobile device can be in communication connection with an external intelligent control platform so as to remotely control the first intelligent mobile device to drive the first spray head to slide on the first sliding rail or remotely control the second intelligent mobile device to drive the second spray head to slide on the second sliding rail.

Further, the first spray head is parallel to the first sliding rail, and the second spray head is perpendicular to the second sliding rail.

Further, the intelligent control device further comprises a first inclination sensor arranged on the first sliding rail and a second inclination sensor arranged on the second sliding rail, wherein the first inclination sensor and the second inclination sensor can be in communication connection with an external intelligent control platform, so that the first spray head is remotely controlled relative to the rotating angle of the shunt tube or the second spray head is remotely controlled relative to the rotating angle of the shunt tube.

Further, still include the third intelligence rotation device, the one end of first pipe with the mount pad passes through the third intelligence rotation device rotates to be connected, the third intelligence rotation device can with external intelligent control platform communication connection, in order to remote control the shunt tubes for the mount pad rotates.

Further, the first intelligent rotating device, the second intelligent rotating device and the third intelligent rotating device all comprise overhanging gears, and the first sliding rail, the second sliding rail and the shunt tube all comprise rod external gears meshed with the overhanging gears.

Further, the first tube is movable in a horizontal direction on the mount.

Further, the installation seat is provided with a first sliding slot extending along the horizontal direction, one end of the connection elbow is inserted into the first sliding slot in a sliding mode, and the other end of the connection elbow is connected and communicated with the first pipe.

Further, the device also comprises a limiting piece, wherein the limiting piece is provided with a second sliding slot extending along the horizontal direction, and the other end of the connecting bent pipe is inserted into the second sliding slot in a sliding way.

The utility model also provides a spraying system, comprising:

the spray tap described above; and

the intelligent control platform is respectively connected with the first intelligent rotating device and the second intelligent rotating device in a communication mode.

When the spray faucet is applied to the building outer elevation water spraying test, the spray faucet can be firstly hoisted to a designated floor, and then the building outer elevation water spraying test is carried out. In the building outer facade water spraying test, the first intelligent rotating device and the second intelligent rotating device can be remotely controlled through an external intelligent control platform, so that the positions of the first spray head and the second spray head are adjusted. When the target position (the position easy to leak) is a horizontal seam, the first intelligent rotating device and the second intelligent rotating device can respectively drive the first spray head and the second spray head to rotate, so that the first spray head and the second spray head are both in a horizontal state; when the target position (the position easy to leak) is a vertical seam, the first intelligent rotating device and the second intelligent rotating device can respectively drive the first spray head and the second spray head to rotate, so that the first spray head and the second spray head are in a vertical state; when the target position (easy-to-leak part) has both horizontal slits and vertical slits, the first intelligent rotating device and the second intelligent rotating device can respectively drive the first spray head and the second spray head to rotate, so that one of the first spray head and the second spray head is in a horizontal state, and the other is in a vertical state.

The spray faucet has various functions and good flexibility. The spray faucet is provided with the two first spray heads and the two second spray heads which are mutually independent, so that two positions can be considered simultaneously, and the water spraying efficiency is improved. In addition, when the type of target position (easy seepage position) changes, for example, when easy seepage position changes the perps from horizontal seam to vertical seam, can come remote operation first intelligent rotating device and second intelligent rotating device through external intelligent control platform, and then adjust first shower nozzle and second shower nozzle position, need not drop back ground with spray tap and adjust first shower nozzle and second shower nozzle position, need not interrupt the water spray, convenient operation just does benefit to improvement water spray efficiency.

Drawings

FIG. 1 is a schematic view of a spray faucet according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the spray faucet of FIG. 1 from another perspective;

fig. 3 is an enlarged view of a portion of the spray faucet shown in fig. 1.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the specific examples. Advantages and features of the utility model will become more apparent from the following description and from the claims. It should be noted that the drawings are in a very simplified form and are all to a non-precise scale, merely for convenience and clarity in aiding in the description of embodiments of the utility model.

As shown in fig. 1-3, the present utility model provides a spray tap 10 for use in building facade water spray tests. The spray faucet 10 includes a mounting base 100, a first intelligent rotating device 200a, a second intelligent rotating device 200b, a shunt 300, a first spray head 400a, and a second spray head 400b. The shunt 300 includes a first tube 310 and a second tube 320. One end of the first tube 310 is connected to the mount 100, and the other end is connected to the middle of the second tube 320. The second tube 320 has opposite first and second ends 322, 324. The first nozzle 400a is elongated, and the first nozzle 400a is rotatably connected to the first end 322 via the first intelligent rotating device 200a and is in communication with the second pipe 320. The second nozzle 400b is elongated, and the second nozzle 400b is rotatably connected to the second end 324 via the second intelligent rotating device 200b and is in communication with the second pipe 320. The first intelligent rotating device 200a and the second intelligent rotating device 200b can be connected with an external intelligent control platform in a communication manner, so as to remotely control the first sprayer 400a to rotate relative to the shunt 300 or remotely control the second sprayer 400b to rotate relative to the shunt 300.

When the spray faucet 10 is applied to the building outer elevation water spraying test, the spray faucet 10 can be firstly hoisted to a designated floor, and then the building outer elevation water spraying test is carried out. In the building outer facade water spraying test, the first intelligent rotating device 200a and the second intelligent rotating device 200b can be remotely controlled through an external intelligent control platform, so that the positions of the first spray head 400a and the second spray head 400b are adjusted. When the target position (the position easy to leak) is two horizontal slits, the first intelligent rotating device 200a and the second intelligent rotating device 200b can respectively drive the first nozzle 400a and the second nozzle 400b to rotate, so that the first nozzle 400a and the second nozzle 400b are both in a horizontal state; when the target position (the easily leaking part) is two vertical joints, the first intelligent rotating device 200a and the second intelligent rotating device 200b can respectively drive the first spray head 400a and the second spray head 400b to rotate, so that the first spray head 400a and the second spray head 400b are in a vertical state; when the target position (the position easy to leak) is a horizontal slit and a vertical slit, the first intelligent rotating device 200a and the second intelligent rotating device 200b can respectively drive the first nozzle 400a and the second nozzle 400b to rotate, so that one of the first nozzle 400a and the second nozzle 400b is in a horizontal state, and the other is in a vertical state.

The spray faucet 10 has various functions and better flexibility. The spray faucet 10 has two independent first spray heads 400a and second spray heads 400b, which can simultaneously take two positions into consideration and improve the water spraying efficiency. In addition, when the type of the target position (the easy-to-leak position) is changed, for example, when the easy-to-leak position is changed from a horizontal seam to a vertical seam, the first intelligent rotating device 200a and the second intelligent rotating device 200b can be remotely operated through the external intelligent control platform, so that the positions of the first spray head 400a and the second spray head 400b are adjusted, the spray faucet 10 does not need to be lowered back to the ground to adjust the positions of the first spray head 400a and the second spray head 400b, water spraying is not interrupted, and the operation is convenient and the improvement of the water spraying efficiency is facilitated.

It should be noted that, in this embodiment, the first intelligent rotating device 200a and the second intelligent rotating device 200b are existing devices, and the first intelligent rotating device 200a and the second intelligent rotating device 200b may include a driving element, a chip for driving the driving element, a battery for supplying power to the driving element and the chip, etc., where the chip can receive an instruction sent by an external intelligent control platform. The intelligent control platform can be a computer, a tablet, a mobile phone and the like.

In this embodiment, the mounting base 100 is a building facade water spray robot. As such, the spray faucet 10 described above may have more functionality. It will be appreciated that in other embodiments, the mount 100 may also have only the function of carrying and mounting other components.

In this embodiment, the shunt 300 is a T-shaped shunt (three branches). As such, the structure of the shunt tube 300 can be made relatively simple, and it can be appreciated that in other embodiments, the shunt tube 300 has four branches, or even more branches.

In this embodiment, the first and second heads 400a and 400b are each rotatable by 360 °. In this way, it is more convenient to adjust the positions of the first and second heads 400a and 400b. It is understood that in other embodiments, the first showerhead 400a and the second showerhead 400 may each be capable of 180 ° rotation or 270 ° rotation.

In the present embodiment, the spray faucet 10 further includes a first rail 500a, a second rail 500b, a first smart mobile device 600a, a second smart mobile device 600b, a first hose 700a, and a second hose 700b. The first sliding rail 500a is rotatably connected to the first end 322 through the first intelligent rotating device 200 a. The first nozzle 400a is slidably disposed on the first sliding rail 500a through the first smart moving apparatus 600a, and is in communication with the first end 322 through the first hose 700 a. The second sliding rail 500b is rotatably connected to the second end 324 through the second intelligent rotating device 200b, and the second nozzle 400b is slidably disposed on the second sliding rail 500b through the second intelligent moving device 600b and is in communication with the second end 324 through the second hose 700b. The first spray head 400a is perpendicular to or parallel to the first sliding rail 500a, the second spray head 400b is perpendicular to or parallel to the second sliding rail 500b, and the first intelligent mobile device 600a and the second intelligent mobile device 600b can be in communication connection with an external intelligent control platform, so that the first intelligent mobile device 600a is remotely controlled to drive the first spray head 400a to slide on the first sliding rail 500a or the second intelligent mobile device 600b is remotely controlled to drive the second spray head 400b to slide on the second sliding rail 500 b.

When the first spray head 400a is parallel to the first sliding rail 500a and the second spray head 400b is parallel to the second sliding rail 500b, the spray faucet 10 can be applied to the target position (the position easy to leak) with two horizontal slits, two vertical slits, one horizontal slit and one vertical slit; when the first spray head 400a is perpendicular to the first slide rail 500a and the second spray head 400b is perpendicular to the second slide rail 500b, the spray faucet 10 can be applied to the target position (the easily leaking portion) in which two horizontal slits, two vertical slits, one horizontal slit and one vertical slit, one window and one horizontal slit or vertical slit, and one window are five cases (wherein, when the target position is the window, the first spray head 400a and/or the second spray head 400b are in a vertical state, and the first slide rail 500a and/or the second slide rail 500b are in a horizontal state); when the first spray head 400a is parallel/perpendicular to the first rail 500a and the second spray head 400b is perpendicular/parallel to the second rail 500b, the spray faucet 10 can be applied to four cases where the target position (easy-to-leak portion) is two horizontal slits, two vertical slits, one horizontal slit and one vertical slit, and one window and one horizontal slit or vertical slit. As such, the spray faucet 10 described above has the potential to be applied to both horizontal and vertical seams and windows. And to horizontal seam and vertical seam, shower nozzle and slide rail sliding connection can increase the scope of spraying, to the window, shower nozzle and slide rail sliding connection can satisfy the needs that the shower nozzle kept the motion state and spray. In addition, the shower nozzle passes through hose and shunt tubes intercommunication, can give the shower nozzle bigger range of motion.

It should be noted that, in this embodiment, the first intelligent mobile device 600a and the second intelligent mobile device 600b are existing devices, and the first intelligent mobile device 600a and the second intelligent mobile device 600b may include a driving element, a chip for driving the driving element, a battery for supplying power to the driving element and the chip, and the like, where the chip can receive an instruction sent by an external intelligent control platform.

In this embodiment, the first nozzle 400a is parallel to the first rail 500a, and the second nozzle 400b is perpendicular to the second rail 500 b. Thus, the spray faucet 10 described above can be applied to both horizontal and vertical seams and windows. It will be appreciated that in other embodiments, both spray heads may be parallel to both rails or may be perpendicular to both rails.

In this embodiment, the spray faucet 10 further includes a first tilt sensor 800a disposed on the first rail 500a and a second tilt sensor 800b disposed on the second rail 500 b. The first tilt sensor 800a and the second tilt sensor 800b can both be communicatively coupled to an external intelligent control platform to remotely control the rotational angle of the first spray head 400a relative to the shunt 300 or the rotational angle of the second spray head 400b relative to the shunt 300. Thus, the position of the first nozzle 400a and the position of the second nozzle 400b of the spray faucet 10 can be adjusted remotely by the intelligent control platform. It is understood that in other embodiments, the first and second tilt sensors 800a and 800b may be omitted, in which case the angle may be empirically adjusted.

In this embodiment, the spray faucet 10 also includes a third intelligent turning device 200c. One end of the first tube 310 is rotatably connected with the mount 100 through the third intelligent rotating device 200c. The third intelligent rotating device 200c can be communicatively connected to an external intelligent control platform to remotely control the rotation of the shunt 300 relative to the mounting block 100. Thus, the position of the first nozzle 400a and the position of the second nozzle 400b of the spray faucet 10 can be adjusted remotely by the intelligent control platform. It is understood that in other embodiments, the third intelligent turning apparatus 200c may be omitted, and the angle may be adjusted empirically. Specifically, in the present embodiment, the first tube 310 can rotate 360 °.

In the present embodiment, the first intelligent rotating apparatus 200a, the second intelligent rotating apparatus 200b, and the third intelligent rotating apparatus 200c each include an overhang gear 210. The first sled 500a, the second sled 500b, and the shunt 300 each include a rod outer gear 510 that meshes with the outer gear 210. In this way, a rotational connection is very easy to achieve. It will be appreciated that in other embodiments, the external gear 210 and the external shaft gear 510 may be omitted, and in this case, the sliding rail and the shunt tube may be directly connected through the rotating shaft of the intelligent rotating device, so as to implement the rotating connection.

In the present embodiment, the first tube 310 is movable in the horizontal direction on the mount 100. In this way, the horizontal extent of the spray can be increased.

In this embodiment, the spray faucet 10 further includes a connecting elbow 900. The mount 100 has a first slide slot 110 extending in a horizontal direction. One end of the connecting bent pipe 900 is slidably inserted into the first sliding slit 110, and the other end is connected to and communicated with the first pipe 310. In this way, the arrangement of the various components of the spray faucet 10 is greatly facilitated.

In this embodiment, the spray faucet 10 also includes a stop 910. The stopper 910 has a second slide slit 912 extending in the horizontal direction. The other end of the connecting elbow 900 is slidably inserted into the second slot 912. In this way, it is possible to ensure smooth movement of the first tube 310 in the horizontal direction.

The utility model also provides a spraying system which comprises the spraying faucet 10 and an intelligent control platform, wherein the intelligent control platform is respectively in communication connection with the first intelligent rotating device 200a and the second intelligent rotating device 200 b.

When the spraying system is applied to a building outer elevation water spraying test, whether communication between the intelligent control platform and the first intelligent rotating device 200a, the second intelligent rotating device 200b, the third intelligent rotating device 200c, the first intelligent moving device 600a, the second intelligent moving device 600b, the first inclination sensor 800a, the second inclination sensor 800b and the like is normal or not can be tested firstly, wherein when the spraying tap 10 is transported to a destination, the intelligent control platform is not assembled yet, assembly can be carried out firstly, and whether communication between the assembled parts of the spraying tap 10 and the intelligent control platform is normal or not can be tested again. After the communication is normal, the spray faucet 10 is hoisted to a designated floor through hoisting equipment.

Then, the first intelligent moving device 600a and the second intelligent moving device 600b are controlled by the intelligent control platform, so that the first spray head 400a and the second spray head 400b slide on the first slide rail 500a and the second slide rail 500b to the vicinity of the target joint (easy-leakage part); then, the third intelligent rotating device 200c is controlled by the intelligent control platform to adjust the angle of the shunt tube 300, so that the first spray head 400a and the second spray head 400b are close to respective target joints (easy-to-leak positions); then controlling the first intelligent rotating device 200a and the second intelligent rotating device 200b to adjust the angles of the first spray head 400a and the second spray head 400b through the intelligent control platform; after confirming that the first head 400a and the second head 400b are in place, the spraying operation may be started.

The spray head of the spray faucet 10 of the spray system can be randomly adjusted in position, and can spray water in a targeted manner at a plurality of positions and a plurality of joints (easy-to-leak positions) at the same time. The spraying system has clear principle and reliable device, can obviously improve the effect of spraying water on the outer wall surface, and can save the time of a water spraying test by simultaneously working two spray heads.

The above description is only illustrative of the preferred embodiments of the present utility model and is not intended to limit the scope of the present utility model, and any alterations and modifications made by those skilled in the art based on the above disclosure shall fall within the scope of the appended claims.

Claims (10)

1. A spray tap for in building facade drenches water test, its characterized in that includes:

a mounting base;

the first intelligent rotating device;

the second intelligent rotating device;

the shunt tube comprises a first tube and a second tube, one end of the first tube is connected with the mounting seat, the other end of the first tube is connected with the middle part of the second tube, and the second tube is provided with a first end and a second end which are opposite;

the first nozzle is in a strip shape, is rotationally connected with the first end through the first intelligent rotating device and is communicated with the second pipe; and

the second nozzle is in a strip shape, is rotationally connected with the second end through the second intelligent rotating device and is communicated with the second pipe;

the first intelligent rotating device and the second intelligent rotating device can be in communication connection with an external intelligent control platform, so that the first spray head can be remotely controlled to rotate relative to the shunt pipe or the second spray head can be remotely controlled to rotate relative to the shunt pipe.

2. The spray faucet of claim 1, further comprising a first slide rail, a second slide rail, a first intelligent movement device, a second intelligent movement device, a first hose, and a second hose, wherein the first slide rail is rotatably connected to the first end via the first intelligent rotation device, the first spray head is slidably disposed on the first slide rail via the first intelligent movement device and is in communication with the first end via the first hose, the second slide rail is rotatably connected to the second end via the second intelligent rotation device, and the second spray head is slidably disposed on the second slide rail via the second intelligent movement device and is in communication with the second end via the second hose;

the first spray head is perpendicular to or parallel to the first sliding rail, the second spray head is perpendicular to or parallel to the second sliding rail, and the first intelligent mobile device and the second intelligent mobile device can be in communication connection with an external intelligent control platform so as to remotely control the first intelligent mobile device to drive the first spray head to slide on the first sliding rail or remotely control the second intelligent mobile device to drive the second spray head to slide on the second sliding rail.

3. The spray faucet of claim 2, wherein the first spray head is parallel to the first slide rail and the second spray head is perpendicular to the second slide rail.

4. The spray faucet of claim 2, further comprising a first tilt sensor disposed on the first slide rail and a second tilt sensor disposed on the second slide rail, each of the first tilt sensor and the second tilt sensor being communicatively coupled to an external intelligent control platform for remotely controlling the angle of rotation of the first spray head relative to the shunt tube or the angle of rotation of the second spray head relative to the shunt tube.

5. The spray faucet of claim 2, further comprising a third intelligent swivel device, wherein one end of the first tube is rotatably coupled to the mount via the third intelligent swivel device, the third intelligent swivel device being communicatively coupled to an external intelligent control platform for remotely controlling the rotation of the shunt tube relative to the mount.

6. The spray faucet of claim 5, wherein the first intelligent rotating means, the second intelligent rotating means, and the third intelligent rotating means each include an overhang gear, and the first slide rail, the second slide rail, and the shunt tube each include a lever external gear that meshes with the overhang gear.

7. The spray faucet of claim 1, wherein the first tube is movable in a horizontal direction on the mount.

8. The spray faucet of claim 7, further comprising a connecting elbow, wherein the mount has a first slide slot extending in a horizontal direction, one end of the connecting elbow is slidably inserted into the first slide slot, and the other end is connected to and communicates with the first tube.

9. The spray faucet of claim 8, further comprising a stop member having a second slide slot extending in a horizontal direction, the other end of the connecting elbow slidably inserted into the second slide slot.

10. A spray system, comprising:

spray tap according to any of the claims 1-9; and

the intelligent control platform is respectively connected with the first intelligent rotating device and the second intelligent rotating device in a communication mode.